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Chemistry Chapter 4, 5, and 6 Jeopardy

Chemistry Chapter 4, 5, and 6 Jeopardy. Jennie L. Borders. Round 1 – Chapters 4 and 5. Round 2 – Chapters 5 and 6. Click to go to Round 2. Atoms 100. Can we actually see atoms? What instrument can help us visualize an atom?. NO! We cannot see atoms.

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Chemistry Chapter 4, 5, and 6 Jeopardy

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  1. ChemistryChapter 4, 5, and 6 Jeopardy Jennie L. Borders

  2. Round 1 – Chapters 4 and 5

  3. Round 2 – Chapters 5 and 6 Click to go to Round 2

  4. Atoms 100 Can we actually see atoms? What instrument can help us visualize an atom? NO! We cannot see atoms. Scanning tunneling microscopes can help us observe atoms.

  5. Atoms 200 What is the difference in atomic number and mass number? The atomic number is the number of protons. The mass number is the number of protons and neutrons.

  6. Atoms 300 What is an atom and why is it neutral? An atom is the smallest particle that retains the property of an element. Atoms are neutral because they have equal numbers of protons and electrons.

  7. Atoms 400 How many neutrons are in calcium-44? 24

  8. Atoms 500 How did Democritus characterize atoms? Democritus described atoms as indestructible and indivisible.

  9. Discoveries and Subatomic Particles 100 According to Dalton’s Atomic Theory, is it possible to convert atoms of one element into atoms of another element? No

  10. Discoveries and Subatomic Particles 200 What is the nucleus and what is its charge? The nucleus is the dense, positive core of an atom that consists of protons and neutron.

  11. Discoveries and Subatomic Particles 300 Fill in the following chart. NO PARTIAL CREDIT IN JEOPARDY! +1 nucleus 1 0 nucleus 1 -1 electron cloud 1/1836

  12. Discoveries and Subatomic Particles 400 Who discovered the proton, neutron, and electron? electron = J.J. Thomson proton = Eugen Goldstein neutron = James Chadwick

  13. Discoveries and Subatomic Particles 500 What instrument was used to discover the proton and electron? cathode ray tube

  14. Isotopes 100 What does amu stand for? Atomic mass unit

  15. Isotopes 200 What is an isotope? Atoms of the same element that contain different numbers of neutrons.

  16. Isotopes 300 Would isotopes has different atomic numbers of mass numbers? mass numbers

  17. Isotopes 400 Elements are identified by their number of _________. protons

  18. Isotopes 500 Why are isotopes of the same element chemically alike? They only differ in the number of neutrons. They still have the same number of protons and electrons.

  19. Periodic Table 100 How is the modern periodic table arranged? in order of increasing atomic number

  20. Periodic Table 200 What are the columns on the periodic table called? groups

  21. Periodic Table 300 What are the horizontal rows on the periodic table called? periods

  22. Periodic Table 400 Elements in the same group have _________________. similar physical and chemical properties

  23. Periodic Table 500 What are two elements with similar properties to potassium? hydrogen, lithium, sodium, rubidium, cesium, and francium

  24. Shorthand and Average Atomic Mass 100 In the shorthand 2412Mg, what do the 24 and the 12 represent? The 24 is the mass number, and the 12 is the atomic number.

  25. Shorthand and Average Atomic Mass 200 How many neutrons are in 73Li? 4 neutrons

  26. Shorthand and Average Atomic Mass 300 The atomic mass of copper is 63.54 amu. Which of copper’s two isotopes is more abundant: copper – 63 or copper – 65? copper – 63

  27. Shorthand and Average Atomic Mass 400 Bromine has two isotopes. One isotope has a mass of 78.92amu and an abundance of 50.69%. The other isotope has a mass of 80.92 amu and an abundance of 49.31%. What is the average atomic mass? 79.91 amu

  28. Shorthand and Average Atomic Mass 500 Element X has two isotopes. One isotope has a mass of 10.012 amu and an abundance of 19.91%. The other isotope has a mass of 11.009 amu and an abundance of 80.09%. What is the average atomic mass, and what is element X? 10.81 amu, boron

  29. Atomic Models 100 Draw the plum pudding model and list the scientist that created it. J.J. Thomson

  30. Atomic Models 200 Draw Rutherford’s model of the atom.

  31. Atomic Models 300 Draw Bohr’s model of the atom.

  32. Atomic Models 400 Draw the quantum mechanical model of the atom. 90% chance of finding an electron in the border

  33. Atomic Models 500 What were Rutherford’s 2 conclusions from his gold foil experiment? • There is a dense positive core which he called the nucleus. • Most of the atom is empty space.

  34. Definitions 200 What is an atomic emission spectrum? An atomic emission spectrum is the different wavelengths of light that are released when an excited electron falls to ground state. It is different for each element.

  35. Definitions 400 What does Aufbau’s principle state? Aufbau’s principle states that electrons fill the energy levels from lowest to highest energy.

  36. Definitions 600 What does Hund’s rule state? Hund’s rule states that electrons are in a sublevel with multiple orbitals, then the electrons would rather be separate than paired. __ __ __ __ __ __ 2p 2p X

  37. Definitions 800 What does the Pauli exclusion principle state? (2 parts) The Pauli exclusion principle states that orbitals can only hold up to 2 electrons. It also states that if an orbital holds two electrons, then they will have opposite spins.

  38. Definitions 1000 How do atoms emit light? Make sure to use the terms ground state and excited state in your answer. An electron gains energy and jumps from ground state to excited state. When the electron falls back down to ground state, it releases the energy in the form of light.

  39. Electron Configuration 200 Draw the shape of an s sublevel p sublevel, and d sublevel. (2 shapes for d)

  40. Electron Configuration 400 (H) Write the quantum numbers for the following electron. __ __ __ __ __ __ __ 4f (R) Calculate the frequency of a wave with a wavelength of 5.7 x 10-9m? 4, 3, 2, -1/2 5.26 x 1016 Hz

  41. Electron Configuration 600 Write the arrow electron configuration for Germanium (Ge).

  42. Electron Configuration 800 Write the standard electron configuration for chromium (Cr). 1s22s22p63s23p63d54s1

  43. Electron Configuration 1000 (H) Write the noble gas configuration for Fm. (R) Write the standard configuration for Cs. [Rn] 5f116d17s2 1s22s22p63s23p63d104s24p64d105s25p66s1

  44. Atoms and Ions 200 Which atom is bigger silicon or chlorine? silicon

  45. Atoms and Ions 400 Which ion is larger O-2 or Cl-? Cl-

  46. Atoms and Ions 600 Compare the size of a cation and an anion to the size of the original atom? A cation is smaller than the original atom. An anion is larger than the original atom.

  47. Atoms and Ions 800 Explain the atomic radius trend as you move down a group. Atomic size increases as you move down a group because larger energy levels are added each time you move down.

  48. Atoms and Ions 1000 Explain the trend of atomic radius as you move across a period. Atomic radius decreases slightly as you move across a period because electrons are added to the same energy level but the protons added to the nucleus pull the electrons in closer.

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